Modeling, applications and challenges of inner ear organoid

J. Qi, Liyan Zhang, Xiaohan Wang, Xin Chen, Yiyuan Li, Tian Wang, Peina Wu, Renjie Chai
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Abstract

More than 6% of the world's population is suffering from hearing loss and balance disorders. The inner ear is the organ that senses sound and balance. Although inner ear disorders are common, there are limited ways to intervene and restore its sensory and balance functions. The development and establishment of biologically therapeutic interventions for auditory disorders require clarification of the basics of signaling pathways that control inner ear development and the establishment of endogenous or exogenous cell‐based therapeutic methods. In vitro models of the inner ear, such as organoid systems, can help identify new protective or regenerative drugs, develop new gene therapies, and be considered as potential tools for future clinical applications. Advances in stem cell technology and organoid culture offer unique opportunities for modeling inner ear diseases and developing personalized therapies for hearing loss. Here, we review and discuss the mechanisms for the establishment and the potential applications of inner ear organoids.
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内耳类器官的建模、应用和挑战
全世界超过 6% 的人口患有听力损失和平衡失调症。内耳是感知声音和平衡的器官。虽然内耳失调很常见,但干预和恢复其感觉和平衡功能的方法却很有限。要开发和建立针对听觉障碍的生物治疗干预方法,就必须弄清控制内耳发育的信号通路的基本原理,并建立基于内源性或外源性细胞的治疗方法。内耳的体外模型(如类器官系统)有助于确定新的保护或再生药物,开发新的基因疗法,并被视为未来临床应用的潜在工具。干细胞技术和类器官培养的进步为内耳疾病建模和开发治疗听力损失的个性化疗法提供了独特的机会。在此,我们回顾并讨论了内耳类器官的建立机制和潜在应用。
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